Manufacture of glassware



. 5, 1933. K. E. PEILER MANUFACTURE OF GLASSWARE Filed March 8, 1929 3 Sheets-Sheet l [72 were Z07; [fa ?'ZE.'Pe 2705 flifamgys a 4 5 A 1- I 1 J11 J D r0 54 h 6 Z W 7 a 4! S wf a l 7 u M 2 .2 6 2 0 y 2 W 5, 1933. K. E. PEILER MANUFACTURE OF GLASSWARE Filed March 8 1929 3 Sheets-Sheet 2 "ii/W055 Dec. 5, 1933. K. E. PEILER MANUFACTURE OF GLASSWARE 3 Sheets-Sheet 3 Filed March 8, 1929 1220022252 if 1275 if Pe L37,

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. portion 01? the parison forming unit then is Patented. Dec. 5, 1933-. v 1,937,913

UNITED S-TA'TE-SHPATENT OFFICE 1,937,913 MANUFACTURED! GLASSWABE Karl EfPeiler, West Hartford, Conn.,-assignor to:

Hartford-Empire Company, Hartford, Comm, a corporation of Delaware Application March a, 1929. Serial NIL 345,536

12 Claims. Y (01. 49-5), J

My invention relates to the manufacture oi .mold or other -finishing mold has been closed glasswareand more particularly to glass workabout the suspended parison. ing machinery of the type that includes mech- A further object of theinvention is to improve anism for receivingand forming charges of moland simplify the construction and operation of ten glass into parisons and for subsequently mechanism, inraglass working machine of the transferring the parisons to finishing molds for character above described, for movably supportthe completion of the, formation of the articles. ing the glass gathering and parison forming unit It is .usual, in glass working apparatus of the during a cycle of rotation of its supporting cartype above mentioned, to provide a rotarytable rier.

d parison forming units are disposed, each of will become apparent from a consideration of the which maycomprise cooperative two-part parifollow n c a n and fl f ih a ompanyin son-body andparison neck molds, respectively drawings. v adapted to be opened andclosed. Each of such In carrying out the invention, I may provide glass gathering and parison forming vunits is a p u a y of glass gathering and parison formcaused to dip to the surface of a pool of molten ins units, mounted on a. carrier that is arranged glass 'd 'a h cyc1e. 0f rotation of the car to rotate abouts-vertical axis. Each of the units ri'er and suctionordinarily is employed to .draw prefe ly C mprises a divided parison body' a charge of glass up into the glass gathering unit mold, a divided parison, neck mold and a head while th molds-of'such unit are'closed, the lower cooperatively associated therewith and through end of the glass receiving-cavity thereof being wh S m h i p sure or sub-atmosopen. The glass gathering unit is raised and rh ric and positive pressures may be applied-at vmovd from its glass gatheringposition, the appropriate times. Each unit is supported on gathered glass is severed from the glass of thethe rotary carrier in such manner that it may pool by suitable severing means and the'glasse m v d Sub n y fl i Y during the I m the unit may be given a preliminary form -cycle' of rotation of thecarrier and so that it usually by the application of suitable pressure. al o maybe projected radially outward and rehas been proposed to dispose a bottom plate tracted radially nward at the proper times in againstthe lower end of the glass gathering unit h cycle of i n f the carrier.

' 30 t r'the athering and severing operations have -With supporting and operating mechanism of taken place and while the parison body and neck the general character just described, the upward molds of that unit are. closedto complete the glass iarr d dozmward movement of each glass gathern I place. After; e 'p'arison as con or e v. r a Y thismanner, the body mold of the parison orm-' tuned p th l Operated m c a ismthe ing unit usually 15 opened, eav1 the bare D gi -3 g n r g be 40 ison suspended from the closed neck mold-port1 6 tihtl r in 011 W g g tiJrOJec ed PQ .tion of the unit. A dlvlded blow or otherfinish- 011 h 8 Q en 0, he 0105811 bOdY ing mold 'may be 'movably supported on the same mom of 51.1911 i 15 m a t with the surface 5 sed of agathermg pool of molten glass. Glass from t b or F anadmcent table-and -P e c o the pool then may be caused to fill the cavities about the Suspended parison' The neck d of the parison body and neck mold, as by causing 10p suction. thereon or creating differential ressure Opened to Wi m P Y'mf may at the lower end of the parison body. 'I he unit minded 9 final form m the ii hie ;with the glass therein is raisedso as to clear the -"A 9 of t e P mventlon lsvto prof, wall ofthe gatheringpool as the rotation of the r vide improved-meansfor'and methods of steadysupporting @arrier continues and the unit may =50 ing and supporting h Dari-$011 in h mil-X11130 be moved radially inward as soon as it has been ture of an articl of la swa e c ording to the .-r aised. A suitable severing .device is employedgeneral planabove. outlined, particularly-during to out 01f the string or neck of glass lifted from the period 'of= rehe'ating which may take 'placefthe pool ass-the gathering unit is raised. The

between the time of beginning oi. opening or the gathered glass in the gathering unit may be pre- 55 parison body mold and the time whena blow liminarilyshaped in any suitable known manor carrier on which a plurality of glass gathering Other objects and advantages of the invention ner while the parison body mold is closed about such glass. A bottom plate is brought to a'supporting position beneath the lower end of the preliminarily shaped glass at the time the pariflection of such suspended preliminarily shaped f glass thus are obviated or at least minimized.-

As the cycle of rotation of the table continues, the suspended and under supported preliminarily shaped glass will approach a transfer station, at which such glass is to be transferred to a blow or other finishing -mold. Such finishing mold may be located on an adjacent rotary table and both the parison forming and supporting unit and finishing mold may be moved radially on their respective tables at the transfer station or-either of them maybe moved radially on its.

supporting table so that the parison and the finishing mold will travel together while the finishing mold is closing about such parison. Just before the parison is moved outward toward the transfer position, the bottom plate will be caused to-swing away from the lower end of the suspended parison so that the finishing mold may close at the proper time about the complete pendant portion of the parison. After the transfer of the parison to the blow mold, the parison neck mold is opened to releasethe parison and such parison may be expanded in the blow mold into an article of finished glassware in any suitable known manner and by any suitable known means.

In the drawings: a

Figure 1 is a fragmentary plan view 'of a portion of the improved machine, showing a. glass gathering and parison forming unit thereof in position for the gathering of acharge of glass from an adjacent glass gathering pool;

Fig. 2 is a plan sectional view taken substantially along the line 2-2 of Fig. 4, but showing the parison body mold only slightly open.

Fig. 3 is a view, mainly in elevation and partly in vertical section,.showing the glass gathering and parison forming unit of Fig. 1 in its glass gathering position at the gathering pool and showing a bottom support for the parison in its downwardly swung inactive position;

Fig. 4 is a view similar to Fig. 3 but showing the unit of Figs. 1 and 3 moved by the rotation of the supporting carrier toward a transfer station at which the parison formed therein is'to be transferred to a finishing mold on a rotary finishing mold table, a portion of whichis shown, the bottom support for the parison being shown in its active or glass supporting and steadying position; and r Fig. 5 is a diagrammatic plan view of the improved machine, showing the positions of the parts on the two associated tables thereof at various stages in the operation of gathering a charge of glass from the gathering pool and forming such glass into an article of glassware.

The improved machine may comprise a rotary turret or carrier 1, shown in Figs. 1, 3 and 4 as being of substantially hub-like form and as mounted for rotation about the axis of a vertical column 2. Any suitable means for causing rotation of the carrier 1 may be employed. A worm wheel 3 is shown in Figs. 3 and e as havdescription of one of such units will suffice asa description of each of the others.

Each unit A preferably comprises a bracket member having a vertically disposed member 4a of substantially channel-like formai sub tm tially right angular vertically movable frame or tion, Fig. 2, connected at its upper and lower ends bythe vertically spaced parallel pairs of parallel links 5 and 6 with vertically spaced pairs of outwardly projecting lugs or ears '1' and 8, respectively, on the rotary turret 'or carrier. As clearly shown, Figs. 1, 3 and 4, horizontal pivot pins 9 and 10, respectively, connect the inner ends of the pairs of links 5 and6 with the outwardly projecting pairs of ears]? and 8, respectively, while horizontal pivot pins 11 and 12 connect the outer ends of .the paired links 5 and 6 with the upper and lower ends, respectively. of the vertical member-1a of the bracket or frame 4.- The other member of the right angular bracket 4 is indicated at 41), and extends ms substantially radially outward direction with re- 'spect tothe axis of rotation of the carrier 1. The

may slide and retaining strips 16 being secured to the member.4b at the sides of the guideway to prevent accidental displacement of the slide member 14. As seen inFig- 2, the base of the slide member 14 comprises a pair of transversely spaced substantially flat side portions 1441 connected at their inner edgesv by an upstanding frame structure having side members 17 and a transversely extending rear member 18. A portion 19 of the frame structure of this slide member-carries a vertical pivot pin 20 on which are pivotally supported the ,arms of holders 21 for the halves 22 of a divided parison body m'old. A

bracket 23 on the frame structure of the slide member or'an extension thereof carriesa vertical pivot element 24 on which are mounted the arms of the holders 25 for the halves 26 of a two-part parison neck mold or ring. Another bracket 27 on the frame of the radially movable slide member or an extension thereof has an arm 28 on which a head 29 is'supported. The head 29 may be adapted to apply sub-atmospheric and super-atmospheric pressures at different times and the head 29, the parison neck mold and parison body mold are relatively disposed so that the neck mold and the parison body mold when closed will cooperate to form a unitary glass receiving member and the head will be disposed in substantially fluid tight contact with the neck mold.

Any suitable known means may be employed t open and close the parison body mold and the parison neck mold at the proper times in the cycle of rotation of the carrier 1. Thedrawings show a pneumatic cylinder 30 mounted on the frame work of the slide member and arranged to actuate, through suitable intermediate motion transmitting connections generally indicated at 31, a pair of vertically reciprocable pins 32, Fig. 1, each of which is provided with spiral screw threads in mesh, as at 33, Fig. l, with internal spiral screw threads on a rock sleeve 35.

. The latter is suitably connected, as by means of th'e rocker-arm-36 and the link 37, with'the arm of the corresponding holder- 21 for one of the halves of the parison bodymold. whereby the upward movement of the pins 32as the'piston moves'upward in, the cylinder to the, position shown in Fig. 3 will close the halves of the parison body mold whilethe downward movement of the. pins 32 as the piston moves downward in cause a slight downward movement of the piston and of thepins 32 toeflect a slight opening movement or" cracking" open of the parison body mold when pressure belowthe piston has been relieved. The application of pressure above the cylinder to fully open the halves of the parison body mold may be initiated at an adjustable time in the cycle of rotation of the carrier 1 after the cracking of such parison body mold.

The mechanism for opening the halves of the neck moldmay comprise a vertically reciprocable 30 when the pin is moved downward from the position' -shown in Fig. i-to be wedged between a pair oi upstanding lugs, oneoi which is indicated at so, on-the arms of the, holders of the dill cated at d2, with the upper end portion oi the pin it, whereby movement oi the piston in one direction-in the cylinder ti will raise the pin dd to the position shown in. Fig. a while movement oi the piston in the opposite direction in the cylinder ill will cause downward movement of the pin Elli. and consequent opening of the halves oi. the neclr mold as hereinbefore described. a more complete description oi substantially the same node mold opening mechanism may be found in iriy -alforesaid 'copendina, application, cam lilo; mama 1 v "llhe halves oi the nest: mold may he closed in any suitable lrnown manner, by sprina'. not shown; or the arrangement may be such that the closing-oi the halves oi the parisonloody mold will also-cause closing of the halves oi the heels mold, suitable-contact members being provided on ad .,cent portions oi the halves oif'the The parison body and necli molds, the suction or combined suction and blow head above the necli mold, and the parison body and parison nech mold operatina mechanisms thus are all mounted on the radially slidable member ii whichin turn ,1 ism'ounted on the memberilb so as to be capable oi limited radially inward and outward move ments. The radial movements of the slide mem ber l iand' the] parts carried thereby may be controlled by pneumatically operated mechanism comprising a cylinder i3 which "is illustrated as being disposed inwardly of the upstanding bracket member 4a, being secured to the latter by the fastening means 44 or-in any other suitable extendsthrough an'opening 48 in the web of the upstanding'member 4a. The piston rod:46 is suitwhereby when the piston 45 is moved to the left "projected radially outward toward the pin 38having a tapering lower end 39 adaptedhalves of the neckline; whereby the neck ringwill be opened. The vertical reciprocations' or the'pins 3a maybe effected by the operations oi.-

" cause thebracket i to be raised and lowered at bracket 4 may be adjusted within limits without 'memher do.

carried by the ears parison body and neclr molds to effect this result.

manner. Apiston 45, Fig. 2, is reciprocable in the cylinder 43- and has. a rod d6 extending" radially; outward through a'reduced head" portion .47 of the cylinder, which head-portion in turn ably connected, as by its screw'threaded extension 49- and a nut50, with the rear portion 18 of the frame structure of the. slide member 14, from the position shownin Eigl 2, the slide member 14' and all theparts carried thereb'y will be position shown in 3. When the piston 45 is at the lnner end of the cylinder 43, as shown in Fig.2,

the slide member 14. and all the partscarried thereby will be retracted inwardly toward theaxls oi rotation of the carrier 1. Y v

The vertical movements of the bracket 4 and the parts carried thereon are controlled by a cam 51 which is shown in Fig. 5 as extending completely around the, column 2. The bracket'4- :has a depending lug 52. An arm 53 is adapted to slide against the face of the lug 52'and is provided with ajvertical slot through which a plu rality of tap bolts 55 extend and engage threaded openings-in the lug 52. The arrangement is such that the tightening of the tap bolts 55- will secure the arm 53 firmly, although 're'lea'sably, to the lug ,52. A depending vertically adjustable screw 56 is threaded into the horizontal member of the bracket land depends from the latter in the path of vertical movement of the upper end of the arm 53 and thus serves asan adjustable stop for limiting theextent oi adjustment ofthe latter toward the bracket The arm bd carries aroll 5'! which rides on the cam. 511, the latter being suitably laid out to the propertimes the cycle of rotation or the H carrier 1. The pluralpairs o'i" links 5 and 6 will guide the vertical movements of the bracket i in v such manner that the partsthereon will be main tained horizontal at all times. The upper and lower limits oi the vertical movements of the replacingthe cam 5i by adjusting the efiective length of the arm as, this being cheated by loosening the tap bolts 55 and adjusting the stop screw 56 until the effective length oi the arm 53 W5 has been adjusted as desired-and then tightening the tap bolts 55 to maintain such adjustment.

The member to oi the vertically movable bracket and the lower portion or the slide memher. it are provided wi i.. vertically registering. loll slots lit: and so. respectively, his. 2; extending in. a-nenerally "radial outward direction from a pair oi transversely spacedupstandins ears 60' on the A horizontal pivot element iii is uooorts an it parison bottom supporting plate 53 is carried on the outer end oi thearm as by means or a screw ddawhich is threaded through the outer end portion at thearm 62 and is provided at its lower end with a hand wheel whereby the plate lit 63 may Toe-adjusted in a direction at right angles with the; direction oflena'th oi the arm 62. This arm t2 may swine upwardly from the downwardly and outwardly inclined position shown in Fig. 3 into the registeringslots 58 and 59 until the plate ,63is substantially horizontal and is disposed at a predetermined level for a purpose to be pres- "e'ntly described. The rear wall 18 of the frame structure on the slide member 14 may be undercut, as indicated at 65 in Figs. 2 and '3 to clear the 150 idll ears 60 and the adjacent portion of the pivotally mounted arm 62 when the slide member 14 is in its outwardly projected position as shown in Fi 3.

The arm 62 is periodically raised from the position shown in Fig. 3 by mechanism which may comprise a bent or angular lever 66 which also may be pivoted on the pivot element 61. The lever 66 carries a cam roll 67. An out-turned lug 68 on the lever 66 is provided with a slot through which protrudes a pin 69 that is carried by the arm 62. An adjustable stop member, such as the nut 70 on the end of the pin 69, limits the relative swinging movements of the lever 66 and the arm 62 apart while an expansion spring '72 between the lug 68 and the arm 62 tends to force the arm 62 and the lever 66 in opposite directions about the axis of the pivotal element 61. Gravity will tend to swing the pivoted members 66 and 62 and their intermediate connecting mechanism in a downward direction from the position shown in Fig. 4 toward the position shown in Fig. 3, at which time an adjustable stop 73 on the lever 66 will strike a fixed abutment 74 on the adjacent portion of the bracket member 4a. The upward swinging movement of the lever 66 and the arm 62 will take place when the cam roll 6'? moves up an inclined end portion '75 of a cam track. The

axis of rotation of the carrier 1.

movement of the cam roll on the cam track directly actuates the lever 66 and the latter in turn actuates the arm 62 through the resilient connection 72 so that the arm 62 will be swung upwardly substantially to the horizontal position shown in Fig. 4, in which position the plate 63 thereon may support and steady the lower end of a parison 76, such as is shown in Fig. 4 as being suspended from the closed parison neck mold. The bottom plate 63 will remain in its raised position while the cam roll 67 travels along a portion 77 of the cam track that is concentric with the When the cam roll moves down the inclined portion '78 of the cam track, the pivoted plate supporting mechanism willbe free to move downward by gravity until the adjustable stop '73 strikesthe abutment 74. It will beapparent that the bottom plate 63 and its supporting arm will be cushioned on their downward movement by the spring '72 and that the movement of the plate 63 againstthe lower end of the pendant parison will be effected by resilient means so that if any obstruction should be encountered, the bottom plate supporting arm will yield without being broken or without causing damage to any adjacent part.

A cycle of operations of a machine comprising the hereinbefore described parts may be substantially as follows: Starting with the glass gathering and parison forming unit in an outwardly projected lowered position wiih the lower end of the parison body mold in contact with the glass of the gathering pool 79, as shown in Fig. 3, suction may be applied through the head 29 to draw molten glass from the pool into the cavity of the closed neck mold and parison body. As the rotation of the table continues in the direction of the arrow in Fig. 5, which is a clock-wise direction, the charged parison forming unit is raised, a

severing member 80 may be projected across the in Fig. 3. The rotation of the carrier 1 moves the raised glass parison and forming unit toward the position indicated at L, in Fig. 5. During the travel of the unit from the glass gathering position toward the position L, the piston in the cylinder 43 may be actuated to effect movement of the parison forming unit radially inward. The suction within the unit may be discontinued and blowing pressure may be applied to partially expand the glass or in other words to give it a preliminary shape. The parison body mold will remain closed during this preliminary shaping of the glass and the bottom plate will remain in its downwardly swung inactive position. When the unit reaches the position indicated at L in Fig. 5, the halves of the parison body mold may crack open and as such opening of the parison body mold begins, the movement of the cam roller 67 along the inclined portion of the cam track may cause the bottom plate 63 to be swung upwardly to position to support and steady the lower end of the preliminarily formed glass or parison, which is still held by the closed neck mold and depends through the partially open halves of the parisonbody mold. As the rotation of the carrier 1 continues, the plate 63 remains in its active position and supports and steadies the lower end of the pendant parison, preventing or minimizing elongation and lateral distortion 'or deflection of the glass during a reheating period, until the unit reaches the position indicated at M in Fig.

5. This is just before the parison is moved to a position for the transfer thereof to a blow mold, generally indicaed at 82, on an associate rotary blow mold table 83. At the time the unit reaches the position M, the parison body mold halves are open, as shown, and immediately after passing the position M, the slide member 14 may be projected outwardly while the roll 67 moves down the portion 78 of the cam track and permits the bottom plate 63 to move away from the glass parison. The table 83, carrying the blow or finishing molds and their operating mechanism is rotating in synchronism with the table 1 but in the opposite direction. Each blow mold 82 may comprise cooperative' halves carried by holders which are pivoted, as at 84, Fig. 5, on a radially movable slide plate 85 on the rotary table 83. Suitable pneumatically operated mechanisfn, generally indicated at 86, may be provided for opening and closing the halves of the finishing mold 82 at the proper times in the cycle of rotation of the table 83. The radial movement of the slide plate 85and of the parts carried thereby may be under the control of a suitably laid out closed cam track 87 in which a roll 88 for actuating the plate 85 travels. The roll 88 has a suitable motion transmitting connection 89 with the plate 85, such connection extending through a slot 90 in the table 83. With this arrangement, the blow mold may be moved radially as the blow mold halves are closed about the suspended parison, this radial movement of the blow mold being suitably predetermined with relation to the movement of the corresponding parison forming unit so that the parison and'the .blow mold will travel in unison during the closing of the halves of the blow mold. The specific construction of the blow mold supporting and operating mechanism may be substantially as disclosed in my copending prior application. Serial No. 323,954, filed December 5, 1928. The parison unit may be projected to its outermost position after leaving the position M and may remain in such outwardly projected position during the transfer, the radial movement of the gathering pool.- O in Fig. 5, the glass gathering and parison formof the blow mold has; sufliclent to permitthe transfer while the parison andbl'ow mold traveltogether, or radial movements of the parison unit may be caused to take'plaoe during the transfer to supplement the radial movement 01' the blowmold for effecting desirable coir'icidence of travel I of the parison and blow mold during the t a sfer. -After theblow mold-has been" closed about the' parison, the neck mold willbe opened and the parison of course will travel in the closed blow mold, and may be formed in the latter into 'an article of glassware in anysuitable known'manner and byanysuitable known means.

' After the transfer, the parison forming'unit may remain inits outwardly projected position during its travel past the position N, in Fig. 5,

the parison body and parison neck molds'both being open to permit cooling thereof. After passing the position N, the parison body and neck molds will be closed, as by the time the unit reaches the position indicated at O, in Fig. 5, in which position the unit is raised for travel abovethe gathering pool and is' passing the adjacent wall I After passing the position ing unit will be lowered into contact with the pool,

as shown in Fig. 3, and a new cycle-of operations of the glass gathering and parison forming Qunit will be initiated. .30

In the meantime,- the parison in the closed blow mold has been moved by the rotation of the table 83 successively past the positions indicated'at P, Qand B, after which the continued rotation of f the table 83 will bring the article of glassware to a takeout position indicated bythe dotted'line position at T,'the blow mold beingthen opened to permit the removal of the article and remain: ing open for cooling past the position U. The halves. ofthe blow mold then will be again closed about another parison to effect the transfer or I the latter in the manner hereinbefore described.

Suitable valves (not shown) may be provided for controlling the passage of pressure to and/or -i"roinl the pneumatic cylinders and pressure ap plylnc heads oi the machine. The timingof the operations of such valves may be controlled in any suitable lsnown manner and by any 'suitable means which mayinclude cam mechanism such as that partially shown at. 91 in Figs. fl and' l. "Since neither the valves nor their operating and tiniins" mechanism per se iorm any part of the present invention but may be oi any suitable ed in the accornpaiwine drawines and need not he 7 lurther described herein.

".lhe loreyoing description contemplates the phareine; oi the parison loll-mine units with class by the suction method but it is obvious that the principles ol the invention rnay'be'applied to a machine in which the parison lormineunits are to be supplied with glass charges by hand feedins; or loy' a suitable automatic leederoi known construction. Thus,- the parison body mold and/or the neclr mold of each unit may be adapted to be inverted periodically to permit a mold charge to be. dropped into the inverted parison mold. The charge then may be compacted inthe neck mold and parison body mold and a cavity may be formed in the neck portion of theglass, either by having the glass drawn up around a downwardly projecting plunger, by forcing a plunger into the glass, byblowing or by a combination of these means.

Other modifications and "adaptations of the hereinbefore described practical embodiment oflrnown construction, they have not been 'illustrat the invention'may be provided withoutdeparting from the spirit and scope of the invention, as set forth in theappended claims.

1. Ina glass forming machine, an open bot.-

tomed glass gathering unit suppor ed for rotationabout a vertical axis from a gathering position to a transfer position, a bottom plate mounted to travel with "said unitl about said vertical axis-and also mounted to swing about a horizontal axis to and from a glass supporting position at the low- I er end of said unit, and means for moving said pivoted bottomv plate to and from its-said glass supporting position betweensald positions of said unit during each cycle of rotation of said unit about said vertical axis, toengage the bottom of,

and to support a bare parison in, said unit.-

2.' Ina glass forming machine, a carrier mount- .ed to rotate about a vertical axis, a" glass gathering unit mounted for travel with said carrier aboutsaid vertical axis and for radial rectilinear movement with respect to said vertical axispthe rota-- tion of the carrier moving the'unit from a gathering position to a transfer position, a bottom plate associated with said unit and supported for movement with said carrier about said vertical axis and for movement independently or the carrier to and from a position at the lower end of said unit to engage'the bottom of, and to support, an exposed parison in said unit when said unit is at the inner end of its path of radial movement, and

. 'cam actuated means for moving said bottom plate to and from its said glass supporting position between the gathering and transfer positions of'said unit.

3. In a glass forming-machine, a carrier adapted to rotate about a vertical axis, a-glass gather-- ingj unit mounted for travelwith said carrier about said vertical axis. said unit comprising a neck mold and a sectional. parison body mold, means ior opening said parison bodymold ate. given time infthe cycle of rotation ofsaid carrier to leavev a parison in-such unit suspended from the neck mold, a pivotally supported bottom plate out of alisent with said unit when said parison body moid'is closed, means for moving said bottom plate into position to support and steady the lower endlof the suspended parison when said parison body mold has been opened, a blow mold, means ,lor transferring theparison to the blow mold.

and means for disengaging the bottom plate and parison prior to transferring the parison to the blow mold.

unit, a bottom plate pivotally Supported onsaid frame for swinging movement to and from a glass supporting position at the lower end of said unit when said unit is at the inner end move "vertically.

of its path oi radial movement, and means for timing the movements of said bottom plate to and from its said glass supporting position in the interval between the partial exposure ofsaid parison and the removal thereof from saidunit.

5. In. a glass forming machine, a carrier mounted to rotate about a vertical axis, a frame connected to travel with saidcarrier about saidv vertical axis and adapted to move vertically independently of the carrier, a radially slidable member carried by said .frame, an open bottomed glass gathering unit carried by said radially slidable member, a bottom plate, an arm carrying said bottom plate and pivotally supported on said frame to swing about a horizontal axis to and from position to dispose said bottom plate in glass supporting position beneath said glass gathering unit when said radially slidable member is at the inner end of its path of radial movement, and cam actuated means controlling the swinging movements of said pivoted arm to move said bottom plate to and from its glass supporting position during each cycle of rotation of said carrier. 7

6. In a glass forming machine, a carrier mounted to rotate about a vertical axis, a frame connected to travel with said carrier about said vertical axis and adapted to move vertically independently of the carrier, a radially slidable member carried by said frame, an open bottomed glass gathering unit carried by said radially slidable member, a bottom plate, an arm carrying said bottom plate and pivotally supported on said frame to swing about a horizontal axis to and from position todispose said bottom plate in glass supporting position beneath said glass gathering unit when said radially slidable member is at the inner end of its path of radial movement, said bottom plate being adjustably supported on said arm, and cam actuated means controlling the swinging movements of said pivoted arm to move said bottom plate to and from its glass supporting position during each cycle of rotation of said carrier, said cam actuated means comprising a lever, a cam roll carried by the lever, and motion transmitting means including a resilient member connecting said lever with said pivoted bottom plate supporting arm.

'7. In a glass forming machine, an open bottomed glass gathering unit comprising a neck mold and a sectional body mold, rotary means for supporting and moving said unit to cause the unit to dip periodically to position to gather glass from a gathering pool, means for opening the sections of said body mold at a predeter-- mined time after the gathering operation to leave the gathered glass suspended from the neck mold, means for removing the parison from said unit, a bottom plate movable after the beginning of opening of said body mold to position to contact with the bottom end of the suspended glass to support and steady such glass, a pivoted arm for supporting said bottom plate, means yieldingly connected to'said arm for swinging said bottom plate, and means arranged to actuate the last-named means to move the bottom plate into engagement with the bottom of the parison and out of engagement therewith prior to the removal of the parison from said unit.

8. Ina glass forming machine, an open bottomed glass gathering unit comprising a neck mold and a sectional body mold, means for supporting and moving said unit in a closed path to cause the unit to dip periodically to position to gather glass from the gathering pool, means for partially opening the sections of said body mold at a predetermined time after the gathering operation to leave the gathered glass suspended from the neck mold but enclosed by the body mold, a bottom plate movable after the beginning of opening of said body mold to position to contact with the lower end of the suspended glass to support and steady such glass and subsequently movable out of such glass contacting position, means for so moving the bottom plate, a sectional blow mold supported for movement in a closed path different from that of said glass gathering unit, and means controlling the movements of said blow moldto cause it to close about the suspended parison, the means for moving the bottom plate including means for disengaging it from the parison prior to the enclosure thereof in the blow mold;

9. In a glass forming machine, a carrier mounted to rotate about a vertical axis, a frame permanently mounted radially of the axis of the carrier for travel with said carrier about said vertical axis and for movement independently of the carrier in a vertical plane, a glass gathering unit including a neck mold and body mold mounted on said frame for travel with the latter about the axis of rotation of the carrier and in said vertical plane and for independent movement rectilinearly and radially of the axis of the carrier on the frame, means for constantly holding said unit in upright position on said frame, means for controlling the vertical movements of said frame during each cycle of rotation of the carrier and other means for controlling the radial movements of said glass gathering unit.

10. In a glass forming machine, a carrier mounted to rotate about a vertical axis, a frame mounted for travel with said carrier about said vertical axis and for movement independently of the carrier in a vertical plane, a glass gathering unit mounted on said frame for travei with the latter about the axis of rotation of the carrier and 11c in said vertical plane and for independent rectilinear movement on the frame, cam actuated means for moving said frame vertically during each cycle of rotation of the carrier, said cam actuated means being adjustable to vary the path 115 of vertical movement of the frame, and pneumatic means for controlling the rectilinear movements of said unit on said frame.

11. In'combination with the parison mold of a glassware forming machine, in which a parison 120 is shaped, a support for engaging the bottom of said parison, an arm mounted on a horizontal pivot for carrying said support, said support being adjustable relative to said arm, means for swinging said arm to move the support intov and outof 125 engagement with the bottom of the parison, and a yielding connection between said arm and said oscillating means.

12. In a glass forming machine, a carrier mounted to rotate about a vertical axis, a frame, parallel links for pivotally connecting said frame to said carrier, whereby said frame will travel with the carrier about said vertical axis and may move vertically independently of the carrier, a vertically extending cam member encircling the carrier, a cam roller carried by said frame and constantly engaging the top edge of said cam member, whereby rotation of the carrier relative to the cam will cause vertical movement of the frame member, glass gathering and parison forming meansca'rried by said frame, a bottom support associated with said gathering and forming means,

a cam of generally circular shape exterior of said first-named cam member, and means connected to said bottom support and engaging said secondnamed cam member for moving said support into and out of operative position.

KARL E. PEILER. 

